Engraving machine



Aug. 29, 1933. SCOTT r AL 1,924,293

ENGRAVING MACHINE File 1928 9 Sheets-Sheet l xvi I L 3mm Howard B. Scott Ind Edgar Warner Aug. 29, 1933- B, SCOTT ET AL I I 1,924,293

ENGRAVING MACHINE Filed 00* 9 9 Sheets-Sheet 5 m FIG. 4

3W B. Scott and Edgar Warner 9 Sheets-Sheet 4 Howard B. Scott and B Edgar Warner Higaltomup ENGRAVING MACHINE Filed Oct. 8, 1928 H. B. SCOTT Er AL Aug. 29, 1933.

' Aug. 29, 1933. -r [Er AL 1,924,293

ENGRAVING MACHINE Filed Oct. 8, 1928 9 Sheets-Sheet s E Warner MM /l/ I I 3 How B. Scott and H. B. SCOTT ET AL ENGRAVING MACHINE Aug. 29,

Filed Oct. 8, 1928 9 Sheet.s-Sheet 6 Howard B scott and Edgar Warner Aug. 29, 1933.

H; B". SCOTT El" AL IENGRAVING MACHINE Filed Oct. 8. 1928 9 Sheets-Sheet '7 m m @L I53 h l V W Him Aug. 29, 1933. H. s. SCOTT ET AL 1,924,293

ENGRAVING MACHINE 7 Filed Oct. 8, 1928 9 Sheets-Sheet 8 m FIG-.21 I

[33 I I 225 Lv i 228 /33 H FIG. 23

FIG. 22 205 I 202 222 224 Howard B. Scott and e: 229 B Edgar Warner Y E 2/ 206 a I I I.

Aug; 29', 1933; I SCOTT AL 1,-92'4 293 ENGRAVING MACHINE Filed Oct. 8, 1928 a Sheets-Sheet 9 2(2 232 242 28/ 1 I j gee I i O0 1 2?? x v 255 E 79 2a "1-- "I; E gw I99 I '1 E Ear ' i 1 T '37: I 1g 243 E HHH'I I Howard B. Scott mind Edgar Warner Him 1'0 vided to enable the operator to interrupt the of this specification.

Patented Aug.'29,1933" r i e l 1,924,293

.- UNITED STATES PATENT. QF'FICEi" I ENGRAVING MACHINE Howard B. Scott and Edgar Warner, Dayton,

Ohio, assignors to The National Cash Register Company, Dayton, Ohio Application October 8,192.8. Serial N0.,311,092

56 Claims. (o1. 90 -1s.s)

This invention relates to' metalworking ma being timed to occur at each end of a lateral chinery and more particularly to engraving and stroke. H l like machines. e With these and incidental objects in view, the

One of the objects of this invention is to proinvention includes certain novel features of convide anovel automatic engraving machine, wherestruction and combinations of parts, the essen; so;

in the lateral and vertical traverse operations are tial elements of which are set forth in appended readily adjusted tothe kind of work to be per claims and a preferred form or embodiment of formed, the depth of out being directly controlled which is hereinafter described with reference to by the master plate, and novel means being prothe drawings which accompany and form; a part engraving operation at will, without throwing the In said drawings: f r i H power oil the motor. 7 Fig. 1 is a perspective view ofan engraving Another object of this invention is .to provide machine, constructed in accordancewith one form an engraving machine capable of engraving steep of the invention, and containing a plurality of;

5 or abrupt sided characters or outlines on type engraving units. 1 e a wheels, segments, disks, or any other shaped type Fig, 2 is a vertical sectional view taken through carrier, such as are used in cash registers, calcuthe swinging column-of: one of theengraving units lating and like machines, oron, other. work, from to show the vertical feed for the .cutter and, a master plate on which the sides of the chartracer mechanisms. l I

acters or outlines have a gentle slope or incline. Fig 3 is a view in front elevation of an en:- 75].

Still another object is to provide an engraving graving unit. machine with unitary cutting and driving mecha- F g. 4 is asview in right elevation of an en: nisms, including cutter spindles having individual raying unit. v j driving motors adapted for ready insertion in and 5 is, v ew in from? elevatiOlL- p rtly in removal from the machine, adjustable stops being Section, of the work carrier and its, support. 5.1 80.

provided, by which the motor, spindle and cutter 6 is a d t o gitudinal sectional View may be more quickly and readily replaced as a of ne Of th W pp t ng mandrelsmounted unit, with the tip of the cutter in proper position in he Work carrier. i with respect to the work. l. Fig.7 is a detail view of a work retaining 39 A further object is to provide an engraving detent. 85}:

machine ith novel means t feed th cutting Fig. 8 is a cross-sectional view takenon line tool across the face of the work. '5rshowing the Work Carrier, and as V A still further object is to provide an engrav- Sociated D i i ing machine with novel means to shift the work 9 i a ntary detail side view of the to and from the cutting means under the control a i g fin r 101. the Work carrier and the. Do of a master plate. I latchto connect the carrier and the finger. I

Still another object is to provide an engraving F 10 is a'sfictional detail ew, QW g the. I machine with novel means to cause a tracer to method of mounting the ppe nd of the tracer automatically traverse the surface of a master Shaft, tog ther with the manual t rQwout or angles to each 1 Fig. 11 is atop plan view of the manualcon- Another object is the provision, in an engrav- W01 I- ing machine, of a tracer which automatically Fi 2 iS & detail sideyiew, P y in secti n,

traverses a master character and exercises such of onelof the unitary cutting t3001 assemblies,

control over the cutter that the latter is given eluding a cutter pi thedliving motor e movements having a greater ratio for depththan for, n the Supporting Slide f for width and height. Fig. 13 isa detailfview, partlyin section,=of

Further objects are to enable the master plates h spindle sleeve nd slide r h win p r to be quickly and easily presented to the tracer ticularly t manner f lampin the spindle 5O finger; to hold the plates where adjusted,and to slide rest .to its track or rail. I 13 readily remove the plates when desired. i EI- 14 is a horizontal Sectional, plan View Another object is the utilization of the swingthrough the master plate holder and the tracer 1 ing movement which causes the tracer to travel slide rest. 1 f v laterally of the master plate, to feed the tracer Fig. 15 is a view in front elevation of the vertically, thevertical movement. of the tracer master plate holder. 3

character in directions substantially at right ontrol lever for the machine. 1 .95

units are separate Fig. 16 is a vertical cross-sectional view through the master plate holder, showing the method of clamping the master plates in the holder.

Fig. 17 is a detail view of the master plate holder latch.

Fig. 18 is a View in side elevation of the pneumatic motor for actuating the swinging columns and the tracer fingers of a plurality of engraving units.

Fig. 19 is-a front view of the pneumatic motor, showing the drive and reversing mechanism for actuating the slides through which lateral movement is imparted to the cutters.

Fig. 20 is a detail sectional view of the mecha- Y nism' to vertically feed the cutting tools. a Fig. 21 is a view in right elevation of the vertical feed mechanism.

Fig. 22 is a fragmentary detail view, partly broken away, of a manual feed and reverse mechanism for the cutters.

Fig. 23 .is a fragmentary detail view of the vertical feed reversing yoke.

Fig. 24 isardetail view, partly in section, showingamodified form of vertical feed and reversing mechanism for the cutting tools, utilizing a pneumatic drive.

Fig. 25 is a View in right elevation of the modifled feed and reversing device. a

Fig. 26 is a detail View, partly in section, showing the connection of the modified pneumatic feed cylinder to the feed screws.-

Fig. 27 is a diagrammatic View, greatly exaggerated, illustrating the approximate path of the :tracer and of the cutters under the control of the modified pneumatic feed.

Fig. 28 is a detail view of the for the pneumatic feedb i Fig. 29 is a fragmentary view of a part of'the reversing device pneumatic feed cylinder. r

Fig. 30 illustrates a modified form of mechanism for drivingthe actuator slides and for controlling the supply of compressed air to the pneumaticmotor which drives the tracer slides, "and also for controlling the supply. of compressed air to the pneumatic feed cylinder.

.:'Fig..31 is a detail perspective view of one form of master plate. I

v General description Described in general terms, the machine herei in illustrated includes a plurality of units mounted on a common table or bed plate, each unit of which may include a tracer mounted in a swinging' column pivotally supported at the upper end of'a standard. Thestan'dards for the respective from each other and all are mounted upright on'the common base. Drive mechanism is provided to rock the swinging columns to cause the point of the tracer for each unit to traverse a master character or characters from side to side, which master characters areformed on a plate. or platesfremovably supported iriya holder which presents the master plates to their respective tracers. At each end of its lateral travel, the trace'rof each unit is fed one stepeither upwardly or downwardly,

an automatic arresting means being provided to" arrest the feed device when the tracer arrives at the highest and at the lowest points of the master character being reproduced. V

As'here'in shown; a common drive is provided for the swinging frames of the several units, com- .prisingthe-machine, but the several units may be driven individually. This universal drive may include a plurality of reciprocatory tracer slides, one commonv to the two right hand units and another common to the two left hand units. Both slides are driven by a pneumatic motor of conventional design equipped with a suitable revers ing mechanism. Pneumatic motors are well suited for this purpose, due to the fact that they can be quickly reversed, but any suitable power device, such as, for instance, an electric motor or water power, may be used to drive the machine.

A pair of opposed cutting spindles are preferably mounted on the swinging column of each engraving unit, each of which spindles is rotated at a high rate of speed byan electric motor individual thereto, the armature shaft of which is connected directly to the spindle. These motors mounted on the swinging column in such a manner as'to be easily removed and replaced for the purpose of grinding and, repairing the cut-- ters. Adjustable stops or locating points are pro-' tracer appropriate to the unityto shift the Work toward away from. the cutters in order to regulate the depth of the cutand surface shape of the character being reproduced. The carriage may be unlatched from the operating finger and swung outwardly to examine the work or to remove the completed work, and place blank type wheels or other work in position to be engraved.

. Various controls and adjustments are provided on the machine in order to properly align the elements of the machine and control the operation thereof, as well as to throw oifthe drive to the cutting tools and carriage without disabling the motor, all of which will be described in detail in the specification which follows. I

General structure The form of engravingunit selected to illustrate this embodiment the invention comprises I a supporting framework, a carrier for the work being engraved, which carrier is hinged to the framework, a swinging column'journaled in the framework to shift the work relatively to cutting tools mounted onthe column for vertical and lateral movement relatively to the work, a master plate holder, a tracer mounted on the column to traverse the faceof the master plate, means to rock the column to cause the tracer to traverse the master plate laterally, means'to feed the tracer step by step in a direction at substan tially right angles to its lateral travel across the master plate, and means to enable the tracer to control the work carrier to shift the work towards and from the cutting tools, all of which will be described in the order set forth. I

A suitable table or bed plate'2l.(Figs. 1, 3, 4 8) supports a plurality of relatively spaced right standard 18, the foot of which is bolted to the upper face of the table. Each standard has a vertical front face or cheek, near the upper end of which is fastened a bracket 17, the base of which extends beyond one edge of the standard.

engraving units, each of which includes an up- Each bracket 1? includes a vertical web 23 (Fig.

8) projecting forwardly from the base. The upper and lower ends of the web are extended to form arms 42 terminating at their outer offset ends in split collars715, 16, (Fig.5) which firmly clamp opposed pintles 13, 14 adjustably inserted therein to support a .work carriage 12fso that it may swing towards and from the cuttingtools under control of the master plate and tracer, as hereinafter explained.

Work carrier The work, as for instance, type wheel blanks and 11 (Figs. 3-6), as herein shown, is removably mounted in a manner soon to be explained, on the swinging carriage. Eyes 22 projecting from one side of the work carriage, fit over the pintles 13 and 14 adjustably clamped in the split collars l5 and 16, respectively, of the,

bracket 17 by bolts 19 and 20, to provide an adjustment for the pintles, and the eyes 22 may enclose ball bearings (Fig. 5) engaged'by the:

pintles. By shifting the pintles 13 and 14 in their split collars and 16, the carriage 12 and the work 10, 11 supported thereby, is raised or lowered to permit the work to be centered vertically relatively to the cutters.

A trough-shaped supporting arm 24 (Figs. 3,:

pieces to be engraved, as the type wheels 11; for

tory finger 53 (Figs. 5, 8 and 9,) hinged at one end 1 example, are slipped onto the inner end of the mandrel 25 and slid along until they abut a wheel 28 held thereon by a nut 29, having a knurled periphery for manually rotating the en-. tire mandrel and the work carried thereon. A circular flange 30 (Fig. 6) fa'st;on,the.mandrel at the innerend of the bearing 26, together with 3 the index wheel 28 on the outer end of the man drel, hold the mandrel against longitudinal movement.

During the operation of engravingthe char? acters on the type wheel blanks, or other work,

the work-pieces 11 and the work mandrel .25

should be held against rotation. A spring-pressed=-' aligning detent 33 fast on one end of a short shaft 34 (Figs. 5 and 7) rotatably supportedi'n the offset end of the supporting arm 24 and in a lug 35 depending from the bearing 26, is adapted to engage the notches out between the characters formed on the blanks 11 to hold the work from the work when it is'desired to rotate the work mandrel to "present the succeeding blank space to the cutter.

To'rotate the work spindle 25, the operator rocks the lever 36 clockwise with one hand, as

viewed in Fig. '7,to disengage the detent '33 from the work pieces 11, and free the work mandrel and index wheel 28 for rotation in either direction, which mandrel may then be turned by the type wheel or work 11 has been presented to the cutter, the operator releases the lever 36, whereupon the spring. 37 (Figs. 5 and 7) attached thereto, rocks the lever 36and shaft 34 counter-J clockwise to reengage the detent 33 with the work. An index pointer 38 (Fig. 5) on the bearing 26 cooperates with the graduated indexing wheel 28 to facilitate adjustment of the work surface relatively to the cutter.

A bearing 39 (Figs. 3 and'5) formed along the upper edge of the swinging work carrier 12, encloses an upper mandrel (not shown, but similar to and parallel with the lower mandrel 25).

The upper work-supporting mandrel projects beyond the opposite ends. of the bearing 39, the

forward end of; the mandrel supporting the work as the type wheels 10, held in place against a spacing collar- 46 by a knurled finger nut screwed on theouter threaded end of the upper workmandrel. The Work pieces-10 lie in vertical alinement with, and are spaced above the work 11. A spring-pressed aligning detent 47 (Figs. 4 and 5) fast on a shaft ,48 journaled in lugs 49 and 50 projecting upwardly fromthe bearing 39, co-operates with notches in'the work.

10 to hold it andthe mandrel against rotation during the engraving operation. An indexing wheel 51 is secured to the, left-hand end (Fig. 5) of the upper mandrel by 'a knurled nut 52 which may be grasped by the operator to turn 1 the mandrel and the work 10, in the same mannor as the lower mandrel 25 is rotated to index the work 11. A lever 5'7 secured to the aligning detent shaft 43 enables the operator to control on a hinge pin 58 supported in lugs 54 and 55 pro-. jecting from the pivoted sides of the work carriage 1 2.

hereinafterto bedescribedto swing the work carriage and the'work towards and away from the cutters and thus vary. the depth of cut.

The vibratory finger 53 lies substantially pare allel with and alongside the inner face'of the work carriage 12, to which it is releasably secured intermediate its ends, by a latch. 61, rotatablymounted in a tubular adjusting screw 67'extend- The vibratory finger 53 is oscillated under control of a master characteig'in a manner ing outwardly at right angles to the swinging carriage 12 and threaded at its inner end through .the free edge of the swinging carriage. .1

The inner end of the rotatable latch 61 passes through a slot 62 (Fig.9) in the free end of the vibratory finger 53, and carries a cross-head 60 adapted,'when the latch 61 is partiallyrotated in one direction, to lie across the, slot 62 and secure 1 "the'swinging work carrier 12 tothe vibratory- 1 in aiecess 65 of a collar 66 screwed onto the outer end of the tubular latch ad'justingscrew 67, and held in place thereon by a set screw 63. The tubular latch adjusting screw 67 is screwed into a tapped hole in the Work carriage 12 so that it 1 projects therethrough and to the rear thereof to.

form an adjustable locating means for the car riage 12. A look nut '74holds the tubular latch adjusting screw 67 where adjusted. A spring 59 compressedbetwe'en shoulder of the handle 63 andthe-end of. the tubular screw 67 holds the are free to be swung outwardly I cross-head 60 of the latch against the'inner'face of the finger 53 to press the finger against the inner end of the tubular adjusting screw and com pensate for any wear on the cross-head 60.

To swing the work carriage outwardly for the purpose'of inspecting, or removing and replacing the work, the operator grasps the handle 53 and turns it 90 degrees in a counter-clockwise direction, in which position the cross-head cc of the latch registers with the slot 62 (Fig; 9), whereupon the work carriage 12 and the work mandrels relatively to the finger v To adjust the work carriage to locate the work 10 and 11 relative to the cutters 40 and 41 (Fig. 4) in setting up the job, the lock nut '24 is first loosened, after which the tubular adjusting screw 67 may be turned either clockwise to move the carriage outwardly away from thec'utters 40 and 41, or counter-clockwise to move'the carriage inwardly closer to the cutters. After the carriage has been properly located or adjusted with respect to the cutters 49 and 41, the lock nut 74 istightened against the face of the carriage 12, thereby locking the tubular adjusting screw 67 where set. 7

The collar 66 is adjustable upon the adjusting screw 67, so that, after the position of saidadjustingscrew has been changed, the cross-head of the latch 61 may be brought into the correct position to through the slot 62 in the carriage operating finger 63. To eiiect the adjustment of the collar '66, it is only necessary to back out the set screw 68, turn the collar and latch rod 61 to their correct positions, and then tighten the set screw. This adjusts the recess 65 in the end of the collar to proper relation with the horizontal slot 62in the carriage operating finger 53.

Swinging support for the cutting tools and tracer The central portion of the web 23 of the bracket 17, (Fig. 8) between the arms 42, is laterally extended in a direction opposite to that in which t 1e arms 42 areofiset, toforzn asupporting arm 43 lying parallel with and opposite to the base of the bracket. A chambered boss 44 is formed in tegrally with the outer end of the supporting arm 43 and extends outwardly at right angles thereto, the bracket 1'? being extended and apertured as at boss 44. The opposite ends of a hollow trunnion shaft 13s are reduced in size and journaled ball bearings 100 mounted in the aperture 56 in the base of the bracket and in the outer end of the chambered boss 44, respectively. Caps 56.0 and 440 close' the outer ends of the aperture 55 and the sham cred boss 44, respectively, and form abut-' ments to hold the ball bearings in place...

A tubular colunmlll arranged perpendi'cularly and passing'upwardly between the arm 43 and the base. of the bracket 17, carries a laterally projecting lug 110 (Figs. 2, 8 and 10) some distance below its upper end, which lug is transversely ap- 1 ertured' to accommodate the hollow trunnion shaft 130, to which it is fastened in any convenient manner, as by swaging.

j Cutters 81 in which the 56 in alinement with the boreof the chambered to or farther away from the cutter, more or less metal is cut away in forming the character. At the same time, the cutters shift laterally back and forth across the face'ofthe work, and at the end of each lateral. stroke, 'are' fed vertically,

whichvertical travel occurs step-by-step so that.

spectively, areexactly alika'only one of said cutters will be described in detail. The cutting tools 40 and 41 with their individual driving motors are supported on the hollow column 111, as follows: I

A vertically extending rail 88 (Figs. 2 and 3) is formed longitudinally of the swinging column 111 and just below the supporting lug 110, a similar rail 104, in alinement with the'first-named rail 88, being provided on the upper end of the swinging column above the supporting lug 110.

Referring tothelower cutter mechanism, a cutter slide 96 (FigsZ, 3, 4, 12 and 13) embraces the sides of the'rail 88 and has a transversely extending circular casing 84 formed at the-upper end thereof to constitute a support for a sleeve cutter mechanism is removably mounted.

The casing 84 is split at one end, as at 91, (Fig. 13), an car 93 being formed adjacent the split end. A clamp screw 92 extends through the car 93 and into the slide rest SOto enable 'thecutter mechanism to be clamped firmly in place.

Ball bearings secured in the opposite ends of the sleeveE-l support a cutter spindle 'lfipassing through the sleeve, the outer end of which spindle carries a chuck 75 h ld in place thereon by a set crew 27, the chuck holding the point of the on the lower work mandrel 25, the cutter'spindle lower cutting tool 41 at a point opposite the work j extending at substantially right anglesto the work-supporting mandrel. The opposite end of the sleeve 81 isfiared, as at 83, to forma support for one end of a iraine82, for an electric motor. A flexible coupling 78 (Fig. 12) connects the cutter spindle 75 to the armature shaft '79 of the electricmotor.

The spindle 'lfi withits cutter 41;,the spindle sleeve 81, and the motor are removable as a unit in order to grind or sharpen the cutter point 41, after which the cutter unitmay be replaced in the machine. This feature materially reduces in the machine.

Such meansincludes a locating screw Q4 (Figs. 12 and 13) held by a set screw 87in its adjusted position in an internally-threaded boss 95 on the cutter: slide 90. As the cutterlspindle unit is replaced in the casing 84, the point of a stop nut 96 on the end of a screw 27 projecting from the motor frame 82 in line with the screw 94, contacts and is arrestedbythe locating screw 94 to insure the proper location of the cutter 41 with respect to the work. A lock'nut 98 holds the screw 97 in its position in the motorframe 82. The location of the spindle sleeve SI-and the cutter 41 may be varied by adjusting the locating screw 94, and

compensate for the. material .ground .from the cutter, and. insure that the'outter shall be returned to the. sameloperative position.

The upper cutting-:tool40 (Fig.4) isiidentically.

mounted on a spindle (not shown). icar ried by a sleeve (not shown): removably amounted in a' casing 105 on a cutter. slide 106, in the sameman-i ner as that just described for theicutter 41. The

upper cutter 40 is also -.driven by an individual motor 107, the cutter and lmotor being remov= 1 Wheels orother'work. i T The cutter slides 90 and 106 (Figs. 2,4 and 12) are adapted to be 'slid vertically during 1 the able as a unit from the casing; 105 for the purpose of grinding or dressing the cutter; :"Sinv ilar locating and adjusting screws and nuts are.

provided to facilitate thereins'ertion and proper location of the cutter unit when'it is replaced.

in its casing, and .to compensate for material ground off of the cutterin sharpening.

i l The provision of means to'enable the cuttin toolsto be-"adjusted towardsand from the work permits the engraving of various sized-"type operation of the machine to move the cutters .40 and 41 up and down across the face of the work. Each slide is provided with a gib 112 (Fig; 13) to take up any loosenessdue to wear,

and enablethe slides 'to be manuallyadjusted to a close fit on the rails 188' and 104 (Fig. 2).

As one convenientmeans to' effect vertical movement of the cutting toolssimultaneously,

relatively to the work,the following mechanism is resorted to. Each cutter slide 90 and 106 is provided with an opening 108 (FigszZ and 12) intermediate its ends which registers with a somewhat longer opening 109 formed through the rails 88 and 104 to communicate with the hollow interior of the swinging column 111.

openings 108 in the respective cutter slides 90 and 106; and through the registering openings 109 in the column, the flanged heads of the con- T necting blocks 119 resting against and being slotted to enable them to be bolted to; their re spective slides, as at 120 (Fig. 4). Lag screws 126 (Fig. 2) mounted in each connecting block 119 extend longitudinally thereof tosecure its connecting block 119 to a follower 116mounted. on the threaded portions 114 and 115 of a lead screw 113 journaled in a bearing plate 199 (Figs.

2, 20 and 24) projecting across the hollow interior of the swingingcolumn. A bracket 200 (Figs. 2, 20, 21, 24and 25) bolted over an opening 216' formed in the swinging column 111, intermediate its ends, supports the bearing plate 199 whiclqiv extends transversely across'the column with its'free end projecting through an opening 217 in the column opposite the opening 216. Thrust bearings 213 above and below the bear- ,ing plate 199support the lead screw against bodily movement longitudinally and reduce the fricengage with the threads 114'an'd 115 on the lead screw 113.

1* ch thimble-skein is flanged intermediate its at 125, to form projections engageable by the heads of bolts 122; 12 3 mounted'in the opposite. ends" of the body portions of the. followers 116, which ibOltS connect the thimblesskeinslwith the body portions of the followers, 1 and the: body portions of the followersain turn, areattached toftheir cutter slidesJ90,-a nd106 by the: connect: ing blocks 119. j r

The bolts 122,123afiord a convenientzmeans to take up lost motionzabetween the thimble v skeins 117, 118 and the lead screw/"113, due to wear or other oauses; and permitrotation' of the skeins xwith 'the -,lead "screw and relatively to the followers'll6.

Adjusting screws 124 (Figs. 2, 3 and 4) mounted. in lugs 121 on the cutterslides 90 and-1062 are provided to adjust the'slides 90and 106 vertically with respectto the threads114and 115'o'n the lead screw-113, adjustment beingretained by the usual'lockingnuts on the adjustingscrews.

Thelead screw" 113 (Fig. 2) reciprocates the cutter slides 90'and 106 vertically in the franie 111, to cause thecutter's 40 and 41 to -travel left hand thread '115",-whichthreaded portions operate to shift the slides 90 and 106 in opposite directions towards for from each other upon rotation of -the lead screw 113. -The'lea d "screw is turned alternately in; opposite directions by mechanism operable by oscillating the swinging column 111, which oscillating; mechanismwill -first be briefly referred to, and late rffully set forth. 3

Vertical feed mechanism in brief ii; A tracer slide 133 (Figs. 2, 3, 4, and 14) .is mounted to reciprocate up and-down on a vertical 'rail 134 formed longitudinally of'therswinging column 111 near its lower end. The-slide-isequipped with a gib 133 (Fig. 14);, between itself (and the rail 134; to compensate for wear and maintain a snug fit.

, Bolts 142 pass'throughelongated slotsformed in the apron of the tracer slide133, and through an elongated opening 143 in the lower end of the swinging column, andscrewinto afollowerj- 139 surrounding the lead screw 113. -A=spacer block 138 is positioned between the inner face of, the apron and thefollower 139. Internally threaded thimble-skeins 140 similar to the thimble-skei-ns 117 and 118 associated with the cutterslides 90 and 106, arethreaded'on the-lowerthradedportion 1410f the lead screw, and-carryjcircular flanges 72 engaged by the heads' of bolts 71 screwed into the ends-of thefollower .139. The bolts 71 connect thefollower 139 to the thimbleskeins 140 in thesame manner and for-the same purpose'as explained in connection with the bolts v122, 123 for the cutter slides'90 and 106.

A sleeve (Fig. 4) formed on and extending transversely acrossthe tracer slide 13.8:encloses a bushing 132 (Fig. 14). in'one end of which is slidingly mounted a tracer 131, the outer' end of which tracerprotrudes from the bus'hing-and is equipped with a conical point 136 seated in the end of the tracer and held by a set screw. Trcn muzrse feed mechanism The protruding end of the tracer 131' extends through a vertically arranged slot 146- (Figs 4.

and 14) formed in a horizontally reciprocatory. cross-head 147 slidably mounted in slottediguides' 148, 149 (Figs; 4 and v16) 1 The: guides 148. are conveniently supported on'the table 21,. andthe guides 149 are mounted on the upper' overhanging arms of a master plate bracket 150, the foot of which is fastened to the table 21. Power .to. reciprocate th'e cross-head 147 is provided by a motor as hereinafter more fully explained.

The walls of the vertical slot 146 are prefer ably hardened, as indicated in-Fig. 14, from which figure, as well as Figs. 3 and 1, it is evident that a horizontal reciprocatory. movement of the cross-head 147 will rock the tracer 131 back and forth in a generally horizontal direction, and that the tracer, in turn, will rock the swinging column 111 with its trunnion shaft 130 (Fig. 8), in the bearings 100, to effect a pendulum-like oscillation of the swinging column through a constant arc of travel. And since the cutters 40 and 41 are mounted respectively be low andabove the axis of the trunnion shaft 130, they receive an arcuate movement laterally across theface of the workin a direction transverse to the vertical feed; This arcuate movement, in connection with the vertical feed, moves the cutters over the entire area of the work.

I Vertical feed mechanism in detail Rotation of the lead screw 113 in one direction feeds the cutter slides90 and 106 towards each other and at the same time, feeds the tracer slide 133 upwardly over the faceof the master plate 137. Rotation of the lead screw 113 in the opposite direction feeds the cutter slides away from each other and lowers the tracer slide The thread 141 on the lower end of the feed screw 113 is preferably a right-hand thread and the follower 139 and its thimble-skeins 140 cooperate therewith to reciprocate the tracer slide 1 133 and the tracer 131 vertically over the face,

of a master plate 137. The ratio of the pitch of the threads 114 and 115 controlling the vertical feed of the cutters 40 and 41 vertically over the work to the thread 141 controlling the feed of the tracer 131 vertically over the master plate, is approximately 12 to 1, or such that when the lead'screw 113 rotates sufficiently to raise or lower the tracer slide 133 one inch, the cutter' slides 90 and 106 will'be raised and lowered onetwelfth of an inch; I I A spiral wheel 201 (Fig. 2) keyed to the lead screw 113 at a point adjacent the bearing plate 199 and held by lock nuts against movement longitudinally of the lead screw, meshes with a spiral gear 202 turning in a slot in the bracket 200 and fast on a shaft 203 journaled in bearings in the bracket 200. A. ratchet wheel 204 (Fig. 20)

fast on the shaft 203, is rotated step by step in one direction or the other by one or the other of two opposed feed pawls 2'05 and 206pivotal ly supported in the side walls of a slot 219' (Fig.

23) formed longitudinally of a vertically reciprocating pawl-actuating bar 207, Guides or projections 208 and 209 spaced apart on the bracket 200 are slotted to accommodate the pawl-actuating bar 207 which is held in place therein by the cap plates 210 and 211' secured to the outer ends of the guides 208 and 209, respectively. A ball bearing roller 212 (Figs. 3, 20 and 21) carried on a stud 213 projecting laterally from the lower end of the pawl-actuating bar 207, is guided between two pairs of adjustable cam rails 214 and 215 secured to the face of the'standard 18 and arranged on converging angles.

Normally the pawl-actuating bar 207 lies in its neutral or vertical position, as shown, with the roller 212 seated at a point of convergence be tween the adjacent ends of the pairsof rails 21 1 At each swinging movement or oscillation of the column 111 with 5 its trunnion shaft 130, the pawl actuating bar 207 carried by the column causes its roller 212 to traverse the entire space between the outer-ends of the oppositely inclined pairs of 'rails 214, 215'which are set at such an angle relatively to each other and to the axis of oscillation that the roller 212 in moving outwardly in either direction from the central position shown inFigs. 3 and 20, is cammed upwardly to force the pawlactuating bar upwardly.

Assuming, as shown in Fig. 20, that the pawl '206 is in engagement with the ratchet wheel 204,

the pawls will rotate the ratchet wheel, shaft 203 and spiral gear 202 (Fig. 2) in a counter-clockwise direction, and the gear 202, meshing with the spiral gear 201 on the lead screw 113, rotates this screw to feed the cutter slides and the cutters 40 and 41 towards each other.

A hand wheel 220 (Figs-3, 4 and 21) fast on the outer end of the shaft 203, forms av convenient means for manually rotating the gears 202 and 201, and the lead screw 113, to shift the cutters vertically over the face of the;work.. Obviously, by adjusting the cam rails 21 1, 215 at various angles'relatively to the horizontal, different extents of feeding movement maybe given the cutters 40 and 41 andthe tracer slide 131.

Automatic stop mechanism for-vertical feed When the cutters 40 and 41 arrive at either the top and the bottom, respectively, of the character being engraved, it is desired to reverse the vertical movement of the cutter slides 90 and106, which carry the cutters.

As a convenient means to eifect this result, the

tails of the opposed feed pawls 205 and 206 are pivotally connected to theupper and lower ends,

V respectively, of a control link 222 (Figs. 3, 20 to 23) provided with a laterally extending stud 221 embraced by the forkedouter endof an arm 223 fast on one end of a rod 224 journaled concentrically in and extending'through the ratchet wheel shaft 203. The forward end of the rod 224 is bent to form a convenient handle 225. A spring 226 connected to the stud 221, holds the link 222 and the vertical feed pawls' 205 and 206 in their upper positions, as shown in Fig. 20, with the pawl 206 engaging the ratchet wheel 204, or in their lower positions, wherein the pawl 205 engages the ratchet 204.

Automatic means is provided to shift the link 222 vertically to disengage either feed pawl from the ratchet wheel 204, to render the vertical to lower the tracer slide 133 which carries the tracer 131 and the rod 227. As thejtracer 131 appreaches the bottom of the master character, a

nu 230 on the stop rod 227 engagesthe ear 229,

on the link 222 and moves the link downwardly, which rocks the pawls 205 and 206 counter-clockwise about their respective pivots, to disengage the pawl 206 from the ratchet wheel 204, where- To this end a vertically extending rod spiral wheel 201 (Fig. ,2) and the lead screw 113 e upon, the vertical movement of the pawl-actuating bar 207 is ineffective to rotate the ratchet wheel 204. The cutters and the tracer having now traversed the entire vertical length of the character, the operator'disengages the tracer from the cross-head 147, by adjusting a tracer throwout lever 190, (Figs. 1, 3, 10 and 11), in a manner-later described, and removes the old mas.- ter plates 137, inserts new ones and indexes the work. Then, by movement of the handle 225 the operator rocks the rod 224 and arm223 clockwise to further lower the link 222 to engage the pawl 205 with the ratchet wheel. The tracer throwout lever 190 isnow restored to the position shown in Fig. 11, whereuponthev tracer 131-is reengaged with its cross-head and the operation continued. 7

It is obvious that upon downward movement of the pawl-actuating bar 207, the pawl 265, when in effective position, will rotate the ratchet wheel 204 in a clockwise direction to raise the tracer Contour feed mechanism As the cross-head 147 (Fig. 14) reciprocates the tracer 131 laterally across the face of character plate 137, the tracer slides hack and forth axially in its bushing 132, due to the uneven surface contour of the master plate. reciprocatory movement of the tracer 131 is transmitted tothe work carriage 12 to move the work to and away from the cutters 19 and 41 in order to shape thecharacter in the process of engravure. A desirable form of mechanism whereby the axialreciprocatory movement ofthe tracer 131 (Figs. 4 and 14) is transmitted to thework carriage 12 (Figs. 3, 5 and 8) will now be described. v,

A transmitting finger 171 (Fig. 1 4). is keyed to slide longitudinally on a tracer shaft 172, the upper end of which shaft is successively reduced to form a series of shoulders (Fig. '10). r

An anti-friction bearing 184' 10) held against an intermediate shoulder on the'upper end of the tracer shaft 172, by a suitable lock nut,

rests in a seat formed in the projecting ear 232 of a slotted cap plate 173 bolted to the outerface of the lug or enlargement at the upper end of the swinging column 111, and supports the tracer shaft 172, the lower end of which shaft is con? fined in a pair of ears 174. (Figs. 2 i projecting from the tracer slide 133 and einhrg the transmitting finger 171 to cause the latter to travel vertically with the tracer slide- 133 relativelyto the tracer shaft 172 which has no vertical movement, but swings with the column 111. The free end of the transmitting finger 171 (Fig. 14) is adapted to be yieldingly held against the inner end of the tracer 131, and thereby coinmunicate the axial reciprocatory movement of the tracer 131 to the tracer shaft 172. The anti friction bearing 184 (Fig. 19) holds the hub of a segmental gear 177 (Figs. 8 and 13) against a shoulder on the tracer shaft 172. The transmitting finger 171 (Fig. 1e) shifts freely up and down -e master displacement of the tracer when nomaster plate is in place in the holder or when the plates being removed and replaced. Apin 176 projects from the plunger throughan elongated slot in the transmitting finger 171 to enable the operator to withdrawthe plungerfrorn the an nular groove 181 when it is desired to remove the tracer 131 from its bushing 132;

Thesegmental gear 177 (Figs. sand 1c) keyed to a shouldered portion attheupper end of. the

tracer shaft 172, meshes with a segmental lever 178 pivoted on a vertical stud 1'79 carried by in wardly extending ears on the slotted cap plate 173, the outer end of the segmental leverflFlS extending through a siot in the plate to engage the segmental gear 177, and thefinner end of the segmental lever extending through a slot in the lug 110 and through a slot 182 in the tubular trunnion shaft 130 supporting the swinging column 111, where it contacts one end of a push rod 186 slidahle longitudinally 1n the tubular trunnion shaft 130 between the inner end 185 of the lever 178,'and the free end 187 of the carriage-operating finger 53. A spring 188 presses a plunger 189 constantly against the opposite side of the free end 187 of the carriagewperatingfinger 53, and in consequence, forces the finger 53 into contact with the'push rod'136 which transrnits the pressure of the spring 188 to the lever 178, and through the segmental gear 177 and tracer shaft 172, the transmitting finger 171 is held against the inner end of the tracer 131 to It can be seen that the oscillating movement given the tracer shaft 172 by the tracer 131 (Fig.

14) as it traverses the face of the master char acter is transmitted by the segmental gearf177, segmental lever 178, and the pushrod 186 to the carriage-operating finger 53, and, since this finger is latched to the carriage 12, the carriage and the work mounted therein is rocked towards and from the cutters 40 and 41. i

The spring 188 bears against a tensioning screw in bearing retainer 440. Clockwise movement of the segmental gear 178, as viewed in Fig. 8, is limited by an adjusting screw 191 in the bracket 173 to limit the movement of the worlrtowards the cutters. The rocking movement of the carriage and its work can be adjusted by turning the screw 191 in either direction.

From the above, it can be seen that, as the tracer 131 traverses the face of the master plate,

it will, when it engages the high surfaces of the character, move the work 10 and 11 away from the cutters, and that as the tracer 131 passes onto the low surfaces 1 of the master character, the spring 188, acting upon .the work. carriage l2, advances the worl: 13 and 11 closer to the cutters 10 and 41. The ratio of the reciprocatory movement of the tracer 131 to theresultant movement of the work. to and away from the cutters 4c and 41 is approximately 3 to 1. That is, if the tracer 131., in shifting f'rom a low relief'surface to a high relief surface of the master plate, slides of an inch into its bushing. .132, (Fig. 14), the

work-supporting carriage 12 will move 'theworl;

the cutters and 41, which results in engraving a similar character work.

To insure accurate cutting of the characteron the work under the control of the master character, it is essential that the swinging column 111 travel in a plane exactly parallel to the face of the master plate 137. This is accomplished by means of a roller 195 (Fig. 4) mounted to rotate in a support 197 carried by the tracer slide 133. As the column 111 is moved back andforth by the cross-head 147, the roller 196 travels across a face plate 198 secured to the standard 18. This face plate may be adjusted so that it is exactly parallel with the master plate 137, and it can be seen that the column 111 on its oscillatory travel, traverses a planeparallel to the face plate 198, and consequently, parallel to'the master plate 137. Reciprocation of the tracer 131 in the bushing 132 (Fig. 14) as it travels over the uneven surface of the design of the master plate, does not affect the oscillatory travel of the column 111. Adjust-- ing screws 270 (Fig. 8) mounted in the upper end of the standard 18 bears against the inner face of the bracket 17, other adjusting screws 270 (Fig. 4) being located in the lower end of the standard and bearing against the guide plate198, to enable a very fine and accurate adjustment of the cutters and work, to be obtained, and to enable the guide plate to be brought into parallelism with the master plate.

In removing or changing master plates, it is desirable to withdraw the tracer 131 from contact with the face of the master plate. To accomplish this, a manual throwout lever 190 (Figs. 3, 10 and 11) fits over the reduced upper end of the tracer shaft 172 and rests on a latch plate 192 secured to the cap plate 173. The throwout lever 190 is held in either of two positions by a springpressed latch 193, the nose of which cooperates with notches 194 and 195 formed on the edge of the latch plate 192.

Movement of the lever 190 is adapted to engage the side of a keyway 183 (Fig. 11), formed in the hub of the lever, with the key 271 in the tracer shaft 172. The keyway in the lever 191) is purposely made larger than the key to enable the tracer shaft 172 to oscillate freely during the operation of the machine without obstruction from the latchedlever 190.

When it is desired to withdraw the tracer 131 from contact with the face of the master plate 137, the operator grasps the lever 190, disengages tracer from contact with the master plate 137.

and also from its slot 146 in the cross-head 147, thereby disconnecting the swinging column 111 from the drive mechanism and permitting the column to come to rest.

Obviously, the tracer shaft 172, when manually rocked clockwise, in Fig. 8, will rock the segment lever 178 counter-clockwise and force its free end 185 against the push rod 186 which will thrust the carriage-vibrating finger 53 clockwise against the tension of the spring 188 and thus rock the work carriage 12 and the work carried thereby, away from the cutters 4i) and 41.

To restore the tracer 131 to its operative position, the lever 196 is shifted to the position shown in Fig. 11, whereupon the spring 188, through the pushrod 186 and segmental lever 178 rocks the of an inch high on the tracer shaft 172 counter-clockwiselFig. 14) .to

restore the carriage and reengage the tracer 131 with its slot 146 in the cross-head 147 and with the master plate 137.

' M aster plate holder The master plate'bracket 150, (Figs. 1, 14, 15 and 16), hereinbefore referred to, coinprisesa foot resting'upon and bolted to the table21, a

perpendicular face plate extending upwardly from the rear edge of the foot, and bracing knees 7 connecting the foot and face plate.

The face plate is longitudinally slotted, as at 253 (Figs. 14 and 15), the rear edges of the slot being chamfered, as shown in Fig. 16, and the forward upper edge of the slot being'shouldered as at 252 to form a seat for the upper edge of the master plate 137, as hereinafter explained.

The master plate holder 240 is located in front of the face plateof the bracket 150, the lower edge of the holders having eyes formed therein through which extends a pintle 241 mounted'in the knees of the bracket'near the foot thereof,

to enable the holder 240 to be rocked towards and from the slotted face plate. I

The holder is longitudinally slotted as at 238, and its rear face provided with a longitudinally extending shoulder 251 (Fig. 16) to form a seat for the lower edges of the master plates 137, the upper edges of which lie beneath the shoulder 252 justabove the longitudinal slot 253 in the face plate of the bracket 150, when the holder 240 is in its efiective position wherein it presents the master plates to the tracer 131.

A threaded clamping rod 244 is journaled at its opposite ends in ribs 239 formed on the forthe clamping'block 246 in one direction or the other along the slot 253 in the holder 240 to clamp the master plate 137 in the holder or to release the master plate.

A removable spacing plate 247 (Fig. 14), of proper width is interposed, in the slot 253, between the master plate 137;andan abutment bar 248 secured to the right hand end of the holder 240 transversely of the slot 253 for the purpose of properly locating the master plate relatively to the tracer point 131. A collar 249 near one end of the clamping rod 244 and a nut 259 and washer on the opposite end of said. clamping rod,

prevents longitudinal movement thereof in the holder240.

A handle 242 pivoted to the upper free end of the frame 240 isadapted to engage behind a spring latch 243 (Fig. 17) secured near the upper edge of the bracket 150 to latch the holder 240 in its operative position.

To replace the master character plate 137, the handle 242 (Fig. 15) is rocked counter-clockwise until free of the latch 243, after which the holder 240 is swung outwardly. The clamping rod 244 is then turned by the knob 245 to withdraw the block 246 from the master plate 137, which may now be removed from the frame 240. The desired master plates are then placed against the vertical movement under th character.

swung to'itsvertical position and the handle 242 engaged with the latch 243. 7

To compensate for wear or looseness, the latch 243 is made substantially as shown in Fig. 17 with an adjusting screw to adjust the tension thereof when the holder 240 is latched in'its vertical position. The upper edges of the master plates rest against the shoulder 252 at the upper edge of the slot 253 in the bracket 150. T Wis the master plates are held against the possibility of. influence of the tracer 131 as it traverses the face of While only two master plates 137 shown position in the holder 246 in 14 and 15, and only two work pieces 10 ill shown each of the work mandrels 1- (Fig. 6), -3- to be understood that several master characters may be placed in operative position in the holder 240, and that several work pieces on each mandrel iay'be engraved at one time. It is to be further understood that when several work pieces are to be engraved at a sin le operation, it is not'necessary that each be engraved with the same character, but that. any combination of character may be engraved at the same time. The corresponding work pieces 10 and 11, however, are engraved with the same characters, that is, the left hand type wheel 10 (Fig. 5) andthe right hand type wheel 11 are simultaneously engraved under the control of the same master character plate 137, and therefore, these two type wheels receive the same engraving. Likewise the right hand type wheel 10 and the left hand type wheel 11 receive. thesame engraving at the same time under control of the same master plate 137.

Motor drive The cross-head 147 (Fig. 19) has two slots 146 therein, to adapt it to actuate the tracers 13l for Another and 151 are actuated by a pneumatic motor 145 (Figs. 18'and 19). The motoris mounted on a bracket 153 supported on the table 21 of the Inachine at a point between the two alined crossheads 147 and 151, and when supplied with compressed air through a pipe 154, a reversing valve 155 and pipes 156, the motor will rotate a shaft 157 alternately in opposite'directions under con The shaft 157 is cou-.

trol of the reversing valve. pled'to a shaft .158 supported in bearings 159 in the motor frame. A pinion (see Fig. 19) fast on the shaft 158 meshes with a pair of parallel opposed racks, 165 below and 166 above, attached to the cross-heads 147 and 151, respectively. The rack166 carries two adjustable reversingbrackets 157 and 163 located on opposite sides of the motor and having laterally projecting studs 169 and 170, respectively, adaptedto operate the reversing valve 155 when the rack 166 reaches either end of its reciprocatory path. H

As the shaft 158 rotates in a counter-clockwise direction, (Fig. 19), it drives the rack 165 and its cross-head 14? towards the right, and at the same time, drives the rack 166 and its cross-head 151 towards the left until the stud 169 on the bracket 167 contacts with and operates the reversing the master valve 155, whereupon the pneumatie motor is reversed to'rotate the shaft.158 in clockwise direction, thereby driving the rack. 165. and cross-head the bracket168 contacts the reversing valve to again reverse the motor. Thelower ends of the adjustable brackets 167 and 168 are recessed on one side to embrace the rack 166, and are-clamped thereto by meansfof set screws. Each of the brackets is provided with a lug which fits between two teeth on the rack to hold the brackets against movement on the rack. The brackets 167,. 168 are adjustable relatively to the rack 166," to vary the extent of travel ofthe cross-heads 147 and. 151, and thus control the' extent of oscillation of the swinging column 111 and the transverse travel of the tracer 131 over the master plate 137, and of thecutting tools 40 and41 across the work. As stated above, the tracers 131 project through verticalslots 146 and 152, in-the' cross-heads 147 and 151 (Figs. 4 and 19) so that the lateral movement of the cross-heads 147 and 151 is transmitted by means of the tracer 131 to all of the ular oscillatory movement to the columns.

7 Modified twice? and cutter feed Figs. 24 to30, inclusivefillustrate a modified form'of mechanism for feeding the tracer and 195 the cutters vertically in the'machine.

When engraving work having a considerable breadth, as wide type wheels, the cross-heads 147- and 151 impart a full swing to the columns 111,

. swinging columns 111, to impart a constant reg 109 and consequently to the feed bars 207, which in 119 turn, feed the tracers 131 and the cutters 40 and 41, the proper distance vertically overthe'face, of the master plates and of the work. When engraving narrow work, however, it is a decided waste oftime to permit the tracer and'cutters to continue their maximum swing beyond the I 147 and 151 in opposite directions occur as the tracers clear the master-character, and as the cutters clear the work. When the travel of the roller 212 (Fig. 20) on the pawl-actuating bar 207, outwardly from its median position is thus limited, it is obvious that the vertical movement of the pawl-actuating bar 2671s reduced, which results in limiting the vertical feeds of the cutters 40 and 41' and of the tracers 131. It is possible,

therefore,'in engraving on narrow work, that the 135- cutters and tracers.

To overcome possibility, a pneumatic feed,

independent of the mechanical feed heretofore explained. I (Figsg24 to 36), has been'devised-andwill 'now be described.

A double-toothed feed pawl 255 (rac sm, 25, 26 and 27) pivoted onone arm of a bell crank 256, which it itself 'ournaled on the hollow shaft 263, isadapted to-engage androtate the ratchet wheel 204and the shaft 2l)3..to"feedv the cutter;

carrying slides 90 and 106 with their cutters, and the tracer-carrying slide 133 and tracer 131.1 .A link 257 connects the remaining arm of the bell crank 256 with a piston link 258. A pivoted hanger 259 supports these links at their point of connection. The through a slot in the wall of a cylinder 260 and into'a slot formed in the side of a piston 261 to which said link 258 is pivoted.

The pneumatic cylinder 260 may be conveniently secured to the rear'end of the bearing plate 199 projecting across the hollow column 111, as shown in Figs. 20 and 24. Compressed air admitted into the opposite ends of the cylinder 260 through the ports 262 and 268 (Fig. 24) under control of a reversing valve 264 (Fig. recipro- 255 is in engagement with the ratchet wheel 204,

the ratchet and the. shaft 203 will be turned in clockwise Y direction. When compressed air is admitted to the opposite intake port, the piston 261 moves quickly to the opposite end of the cylinder 260.

As the piston travels towards the center of the cylinder, it moves thelinks 258 and 257to rock the bell crank 256 counter-clockwise, which draws the lower tooth or" the pawl 255 idlyover the notches in the ratchet wheel 204. However, as soon as the piston passes the centerof the cylinder and travels toward the oposite end .ofthe cylinder, it again draws the links 258 and 257 to less of the length of travel of said column.

scribed above, acts as a supply valve and an exhaust valve for the cylinder 260, and is of a type well known in the art, for which reason no detailed description thereof is included in-this specification. The valve 264 is operated by studs 265 and 266 on the brackets 167 and 168, respec- 5 tively, on the rack 166. It can be seen, therefore,

that the cutters and the tracer are fed the same distance at each end of each movement of the crosshead 147, which, or" course, the end of each outward swing of the column 111' regard- Fig. 27' diagrammatically ilustrates-the travel of the tracer 181 over the face of the master plate. this figure, the slightly arcuate lateral lines indicate the travel imparted by theswing of the column-111 to the tools and tracer, and the short vertical lines at the alternate ends of the lateral lines represent the downward feed. The tools and tracer pursue'the same path in feeding up- When the tracer 131 has reached a. point at the bottom or top of the master character,it is desired to stop the feed of the cutters and the tracer. This is eifected by swinging the double feed pawl 255 (Figs. 24 and 26) so that both teeth thereof are disengaged from the ratchet wheel piston link .258 projects- 204. A tail 267 on the pawl 255 is looped to sur round the fed reversing rod 227, previously mentioned, carried by the tracer slide 13 As the slide123, together with the rod 227, is moved upwardly, the nut 231 thereon approaches the tail 267 of the feed pawl 255, and when the tracer arrives at the uper limit of the master character, the nut231 contacts the tail 267' and rocks the pawl 25 counter-clockwise to its neutral position wherein neither of its teeth are engaged with the ratchet wheel, so that the'piston 261 reciprocating in its cylinder 260, is ineffective to rotate the ratchet wheel 204 in either direction. A plunger 268, one end of which is pivotally supported on an elongated stud 269 projecting laterally from the end of the tail267, is slidahle in a block 275, pivotally supported on the end of thelonger arm of the bell crank 256. A spring 276 compressed between a shoulder on the plunger 268 and the lock 275, holds the pawl 255 in either of its operative positions.

A manual reversing means is provided for the pneumatic feed, which reversing means com prises two radially extending rods 277 and 278 (Figs. 24, 25, 26 and 28) fastin a hub 279 fixed on one end of a bar 280, extendingthrough-the' center of the hollow shaft 293. The opposite end of the bar 280 is bent at a convenient angle to form a handle 281 adapted to be grasped bythe operator to rock the bar 236 in either direction.

If rocked in counter-clockwise direction, as viewed in Figs. 24 and the rod 278 strikes the elongated stud 269, projecting laterally from the tail 267 or the pawl 255 across the path of travel of the rods 277 and 278, thereby rocking the pawl 255 counter-clockwise to disengage the lower tooth thereof from the ratchet wheel 264, and to engage the direction of vertical feed for the cutters and the tracer.

The extent of the feed, or the number of notches through which the ratchet wheel 204' advances at each feed stroke of the piston 251, may be regulated by two set screws 282 and 283, (Fig. 26),

one projecting into the cylinder 269'from each I end. These screws may be adjustedto limit the length of the stroke of the piston and are held in their proper positions by lock -nuts. The

locations of the reversing nuts and 231 (Fig,

24) on the reversing bar 227 determines the extent of vertical feed in either cutters and tracer.

Operation Briefly, the operation of the engraving machine described above is as follows:

The operator having determined the size of type wheels or other work 10 and 11 to be engraved;

and the characters to be engraved thereon, first selects the master plate 137 containing'the desired character. The masterplate holder 240 (Fig. 15) is then rocked outwardly and the master plate 137 inserted therein, the number of plates inserted being determined by the number of type wheels or other work units which desired to engrave. One blank work unit is then'placec on each of the work mandrels for each master plate inserted in the holder 24%, after which the work carriage 12 is latched to the carriage-open ating finger 58.

upper tooth therewith to reverse the direction of the By opening a valve (not shown) the air line 154, (Fig. 18), compressed air is admitted to themotor 145, which immediately actuates the crossheads 147 and 151, to swing the columns 111;

through their regular oscillations. Admission oi compressed air. to the motor also supplies the pneumatic feed mechanism with compressed air. The tracer 131 may be started either at the top or bottom of the master character. If it is started at the top, the cutters 40, 41 will start 'at their closest points to the tubular trunnion trunnion shaft across the face of the type wheels, at the same time, swinging transversely across the faces of their associated type wheels or work as the tracer traverses'themaster character.

When the cutters have been moved once V81? tically across the faces of the work, the feeding device is automatically disabled as described above. However, the column 11.1 continues to swing. By moving the tracer throwout lever 190 forwardly, the tracer 131 is withdrawn from its slot 146 in its cross-head 147 and the corresponding column 111 comes to rest without disturbing the operation of the remainingengraving units; Rocking the tracer throwout lever 190 towards the front of the machine, also shifts the work carriage 12 outwardly far enough to cause the work to clear their respective cutters 40 and 41.

The work mandrels 25 and the work units 10 and 11 are now indexed or rotated to present the next blank space on each work unit to the re-' spective cutter. The master plates 137 are removed and others inserted to control the engraving of the next character or characters on the work. The reversing lever 225 is now moved to engage the feed pawl 205 or 206 with the feed ratchet 204 so that the vertical movement .of the cutters and the tracer 131 will be in the reverse direction from that of the last operation.

The work having been indexed and the masterplates changed, the throwout lever 190 is shifted to the rear, which permits the tracer 131 to enter its slot inthe cross-head 147 and contact the master character plate 137. This forward movement of the tracer, through the tracer shaft 172;

and the mechanism illustrated in Fig. 8, and described in detail above, swings the work carriage 12 to engage the work with the respective cutters 40, 41.

The same procedureapplies' toall four of the 'jects primarily stated, it is to be understood that it is not intended to confine the invention to the i one form or embodiment herein disclosed, for it shift relatively thereto; and a cutter mounted on the cutter slide; of a master character plate; a pivoted work carriage; a tracer shiftably mounted on the supporting means and adapted to'move the work carriage toward and away from the cutter; and means to swing the supporting means with the cutter and tracer to shift the tracer.

laterallyacross the master plate and the cutter across the work. A v 1 I 2. In a machine of the class described;the com-= bination with a swinging support; and a cutter;

and a tracer carried thereby; of a stationary master plate; a pivoted work carriage; connections to enable the tracer to shift the work carriage and the work away from the cutterunder the control of the master plate; and a spring to shift the work carriage and the work towards the cutter under the control of the master plate.

3. In a machine of the class described; the com-- bination with a swinging support; a tracer carried by saidswinging support toreciprocate relatively thereto; a stationary .master plate; means to shift the tracer across the master plate; a pivotally supported work carriage; and connections.

whereby reciprocatory movement of the tracer imparted thereto as it passes over the contour of f the master plate is imparted to the work carriage.

4. In a machine of the class described; the combinationwith a standard; and a swinging sup port carried by said standard; of a work carriage pivotally supported on said standard; cutters mounted to slide on said swinging support; a reciprocatory; tracer also mounted to slide on said swinging support; a master plate with whichthe tracer contacts; means to shift the cutters,'and the tracer on the swinging support; means to rock said swinging support; andmeans connecting the tracer and the work carriage whereby the reciprocation of the tracer due to its travel over the contour of the master character is imparted to said work carriage to control'the position of the work relatively to the cutters. i i

5. In a machine of the class describedg the com.-

bination with a stationary master plate; a tracer;

across said master plate ;of a pivotedwork carriage; a shift adapted to be oscillated by the-tracer as said tracer passes "over the contour of said.

master plate; and means whereby the oscillation of the shaft is transmitted 'to the work carriage;

6. Inamachine of the class described; the com? bination with a' stationarymaster plate; a .swing-. ing support; a tracer carriedby said swinging support; means to cause said tracer totraverse at. i

the master plate; a shaft oscillated by said tracer;

-a .pivotedwork carriage; an operatin finger pivotedion said carriage; means to transmit the movement of said shaftto the operating finger; and means to releasably latch the work carriage to said operating finger so thatsaid'carriage is vibrated thereby. a l M '7. In a machine of the class-described; the combination with a master plate; a shaft; a tracer in contact with the master plate; means to cause the tracer to traverse the surface of the master plate} of means between the tracer and the shaft to,

cause the tracer to oscillate said shaft; a pivotedwork carriage; an operating finger pivoted on said carriage; means to releasablydatch the carriage to the operating finger; a spring urging the finger inone direction; a segment'onsaid shaft; a seg-- ing finger to transmit the movement of the shaft to theoperating finger.

' 8.. In a machine of the class described; the com- 

